CN104898917B

CN104898917B - A kind of information processing method and electronic equipment

Info

Publication number: CN104898917B
Application number: CN201410083860.6A
Authority: CN
Inventors: 戴岩
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-03-07
Filing date: 2014-03-07
Publication date: 2019-09-24
Anticipated expiration: 2034-03-07
Also published as: CN104898917A; US20150253980A1

Abstract

The invention discloses a kind of information processing methods, comprising: the second mobile input of the first movement input for being located at the first operating body of side of the frame structure and the second operation body positioned at the side of the frame structure is obtained by the first sensor；Judge whether the first movement input and the second mobile input meet predetermined condition, the predetermined condition is whether the moving direction of first operating body is consistent relative to the induction region with the moving direction of the second operation body；When first movement input and the second mobile input meet predetermined condition, control instruction is generated；It responds the control instruction and controls the display interface shown on screen.The invention also discloses a kind of electronic equipment to promote the operating efficiency of user, and ensure that the usage experience of user using the maloperation generated the invention can avoid too small due to electronic equipment screen.

Description

Information processing method and electronic equipment

Technical Field

The present invention relates to the field of wireless communications, and in particular, to an information processing method and an electronic device.

Background

At present, along with the popularization of smart phones and touch screens, smart watches comprising a plurality of functions of a touch screen appear on the market. However, the smart watch is small in size, but the user also needs to operate a display touch screen on the smart watch to be able to trigger an object (e.g., an icon) on the display unit. For example, when a user sets countdown, the user needs to find corresponding timing application software from an operation page of a turning smart watch to click, and set time after starting the timing application software, wherein the set time needs to be accurately set in minutes and seconds. All operations are executed on the display touch screen, and when the user sets minutes or seconds, the user needs to lift the finger every time the setting is performed, so that whether the adjustment result meets the requirements of the user or not is ensured. The operation is complicated and the efficiency is low

Therefore, in the operation of the smart watch in the prior art, not only each application software needs to be searched from a smaller screen, but also accurate setting needs to be performed on the touch screen. Thus, the erroneous operation is easily caused, and the efficiency of the user operation is lowered.

Disclosure of Invention

In view of the above, an object of the present invention is to provide an information processing method and an electronic device, which can avoid an incorrect operation caused by an excessively small screen of the electronic device, improve the operation efficiency of a user, and ensure the user experience.

The embodiment of the invention provides an information processing method which is applied to electronic equipment, wherein the electronic equipment comprises a frame structure body, a first display assembly and a first sensor, the frame structure body comprises a fixing structure, and the fixing structure can fix the electronic equipment on an object; the first display assembly is fixed on the frame structure body and comprises a display screen; the display screen is exposed through a first surface of the frame structure, the first sensor is arranged in the frame structure, a sensing area of the first sensor is located on a side surface of the frame structure, and the first surface and the side surface intersect with each other, and the method comprises the following steps:

obtaining, by the first sensor, a first movement input of a first operation body located at a side of the frame structure body and a second movement input of a second operation body located at a side of the frame structure body;

judging whether the first movement input and the second movement input meet a preset condition, wherein the preset condition is whether the movement direction of the first operation body is consistent with the movement direction of the second operation body relative to the sensing area;

generating a control instruction when the first movement input and the second movement input meet a predetermined condition;

and responding to the control instruction to control a display interface on the display screen.

An embodiment of the present invention further provides an electronic device, where the electronic device includes: the first display component and the first sensor; wherein,

the first sensor is arranged in a frame structure body, the frame structure body comprises a fixing structure, and the fixing structure can fix the electronic equipment on an object; the sensing area of the first sensor is positioned on the side surface of the frame structure body;

the first display assembly is fixed on the frame structure body and comprises a display screen; the display screen is exposed through a first surface of the frame structure body, and the first surface is intersected with the side face of the frame structure body;

the electronic device further includes: an information processor for obtaining, by the first sensor, a first movement input of a first operation body located at a side of the frame structure body and a second movement input of a second operation body located at a side of the frame structure body; judging whether the first movement input and the second movement input meet a preset condition, wherein the preset condition is whether the movement direction of the first operation body is consistent with the movement direction of the second operation body relative to the sensing area; generating a control instruction when the first movement input and the second movement input meet a predetermined condition; responding to the control instruction to control a display interface on the display screen;

the first sensor is configured to obtain a first movement input of a first operation body located on a side surface of the frame structure body and a second movement input of a second operation body located on a side surface of the frame structure body.

The information processing method and the electronic equipment provided by the embodiment of the invention can enable a user to correspondingly control the electronic equipment without operating an operation interface on a display screen of the electronic equipment, so that misoperation caused by the fact that the screen of the electronic equipment is too small can be avoided, the operation efficiency of the user is improved, and the use experience of the user is ensured.

Drawings

FIG. 1 is a first flowchart illustrating an information processing method according to an embodiment of the present invention;

FIG. 2 is a first schematic diagram illustrating a user operation according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating a second information processing method according to an embodiment of the present invention;

FIG. 4 is a second schematic diagram illustrating a user operation according to an embodiment of the present invention;

FIG. 5 is a first schematic view of an electronic device according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a second exemplary embodiment of an electronic device;

fig. 7 is a schematic diagram of an external structure of an electronic device according to an embodiment of the invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The first embodiment,

The information processing method provided by the embodiment of the invention is applied to electronic equipment, wherein the electronic equipment comprises a frame structure body, a first display assembly and a first sensor, the frame structure body comprises a fixing structure, and the fixing structure can fix the electronic equipment on an object; the first display assembly is fixed on the frame structure body and comprises a display screen; the display screen is exposed through a first surface of the frame structure, the first sensor is arranged in the frame structure, a sensing area of the first sensor is located on a side surface of the frame structure, and the first surface and the side surface are intersected, such as a smart watch; as shown in fig. 1, the method includes:

step 101: obtaining, by the first sensor, a first movement input of a first operation body located at a side of the frame structure body and a second movement input of a second operation body located at a side of the frame structure body;

step 102: judging whether the first movement input and the second movement input meet a preset condition, wherein the preset condition is whether the movement direction of the first operation body is consistent with the movement direction of the second operation body relative to the sensing area;

step 103: generating a control instruction when the first movement input and the second movement input meet a predetermined condition; and responding to the control instruction to control a display interface on the display screen.

The electronic device may be a smart watch. The frame structure may be a dial; the first display assembly is a display assembly mounted on the frame structure, and the display assembly may include a display screen of a smart watch.

The sensing area of the first sensor located on the side of the frame structure may be: when the frame structure is polygonal, such as rectangular, the sensing regions are located on each side of the frame structure, such as four sides of the rectangle; when the frame structure is circular, the sensing area is located on the side surface of the frame structure.

Preferably, the obtaining of the first movement input of the first manipulation body located at the side of the frame structure body and the second movement input of the second manipulation body located at the side of the frame structure body by the first sensor may be: when a user needs to operate the intelligent watch, two fingers are used for respectively starting to move at any position of the side face of the frame structure body;

the determining whether the finger performs the moving operation may be that the finger performs the moving operation when a moving distance of the finger exceeds a preset distance threshold.

Whether the moving direction of the first operating body and the moving direction of the second operating body are consistent with each other relative to the sensing area is as follows: whether the moving direction of the first operating body and the moving direction of the second operating body are both clockwise or both counterclockwise relative to the sensing area is, for example, as shown in fig. 2, where the moving direction is the same relative to the sensing area, and the moving direction is determined by that the user uses two fingers to respectively move clockwise on the side of the dial.

The responding to the control instruction to control the display interface on the display screen can be realized by generating a corresponding control instruction for the operation according to a preset rule when the intelligent watch detects that the operation of the finger of the user meets a preset condition.

Therefore, by adopting the scheme, the user can correspondingly control the electronic equipment without operating the operation interface of the electronic equipment, so that misoperation caused by undersize of the screen of the electronic equipment can be avoided, the operation efficiency of the user is improved, and the use experience of the user is ensured.

Example II,

The information processing method provided by the embodiment of the invention is applied to electronic equipment, wherein the electronic equipment comprises a frame structure body, a first display assembly and a first sensor, the frame structure body comprises a fixing structure, and the fixing structure can fix the electronic equipment on an object; the first display assembly is fixed on the frame structure body and comprises a display screen; the display screen is exposed through a first surface of the frame structure, the first sensor is arranged in the frame structure, a sensing area of the first sensor is located on a side surface of the frame structure, and the first surface and the side surface are intersected, such as a smart watch; as shown in fig. 3, the method includes:

step 301: a first movement input of a first operation body located on a side surface of the frame structure body and a second movement input of a second operation body located on a side surface of the frame structure body are obtained by the first sensor.

Step 302: obtaining a first input trajectory of the first movement input and obtaining a second input trajectory of the second movement input.

Step 303: and determining a first moving direction of the first moving input in the sensing area according to the first input track, and determining a second moving direction of the second moving input in the sensing area according to the second input track.

Step 304: judging whether the first moving direction and the second moving direction are consistent or not relative to the sensing area, when the first moving direction and the second moving direction relative to the sensing area are consistent, determining that the first moving input and the second moving input meet a preset condition, and determining that the control command is a first control command.

Step 305: generating a control instruction when the first movement input and the second movement input meet a predetermined condition; and responding to the control instruction to control a display interface on the display screen.

The obtaining of the first input trajectory of the first movement input and the obtaining of the second input trajectory of the second movement input may include: determining a first input track corresponding to a first mobile input according to a starting coordinate, a track coordinate and an ending coordinate corresponding to the first mobile input, and determining a second input track corresponding to a second mobile input according to a starting coordinate, a track coordinate and an ending coordinate corresponding to the second mobile input; for example, as shown in fig. 2, when the user uses two fingers to move clockwise, the trajectory coordinates of the two fingers moved by the user are respectively obtained, and the input trajectories of the two fingers are determined according to the trajectory coordinates corresponding to the two fingers.

Determining a first moving direction of the first moving input in the sensing area according to the first input track, and determining a second moving direction of the second moving input in the sensing area according to the second input track: determining the moving direction of the first moving input in the sensing area by using the starting coordinate and the ending coordinate of the first input track; determining the moving direction of the second moving input in the sensing area by using the starting coordinate and the ending coordinate of the second input track; for example, as shown in fig. 2, the moving track 211 of the index finger 21 of the user is detected, and the first moving direction of the index finger 21 is determined to be from left to right, i.e. clockwise, according to the start coordinate and the end coordinate of the moving track 211; the moving track 221 of the thumb 22 of the user is detected, and the second moving direction of the thumb 22 is determined to be from right to left, i.e., clockwise, according to the start coordinate and the end coordinate of the moving track 221.

Example III,

Preferably, the obtaining, by the first sensor, a first movement input of a first operation body located at a side of the frame structure body and a second movement input of a second operation body located at a side of the frame structure body may be: when a user needs to operate the intelligent watch, two fingers are used for respectively starting to move at any position of the side face of the frame structure body;

Preferably, the obtaining of the first input trajectory of the first movement input and the obtaining of the second input trajectory of the second movement input may include: determining a first input track corresponding to a first mobile input according to a starting coordinate, a track coordinate and an ending coordinate corresponding to the first mobile input, and determining a second input track corresponding to a second mobile input according to a starting coordinate, a track coordinate and an ending coordinate corresponding to the second mobile input; for example, as shown in fig. 2, when the user uses two fingers to move clockwise, the trajectory coordinates of the two fingers moved by the user are respectively obtained, and the input trajectories of the two fingers are determined according to the trajectory coordinates corresponding to the two fingers.

The first control instruction may be a first rotation instruction, or a second rotation instruction, or a third rotation instruction.

The first control instruction and its response are described below, respectively:

when the first control instruction is a first rotation instruction; the responding to the control instruction to control the display interface on the display screen comprises: responding to the first rotating instruction, and rotating the display interface according to the first input track and the moving direction; for example, when a map is displayed in the display interface, a first rotation instruction is obtained, and at this time, the smart watch moves the map according to the moving direction of the first input track, and it is assumed that when the first input track is the moving track 211 of the index finger 21 as shown in fig. 2, the map moves rightward along with the moving track 211 of the index finger 21;

or when the first control instruction is a first rotation instruction; the responding to the control instruction to control the display interface on the display screen comprises: responding to the first rotating instruction, and rotating the display interface according to the second input track and the moving direction; for example, when a map is displayed in the display interface, a first rotation instruction is obtained, and at this time, the smart watch moves the map according to the moving direction of the first input track, and it is assumed that when the first input track is the moving track 221 of the thumb 22 as shown in fig. 2, the map moves leftward along with the moving track 221 of the thumb 22.

When the first control instruction is a second rotation instruction; the responding to the control instruction to control the display interface on the display screen comprises: responding to the second rotation instruction, and controlling the selection frame to move according to the first input track and the moving direction so as to select a first object on the display interface; for example, when an operation frame is displayed in the display interface, the operation frame may be a cursor for timing operation, and when a second rotation instruction is obtained, the smart watch moves the cursor for timing operation to a certain scale according to the moving direction of the first input track, and the moving distance of the first input track, and takes the certain scale as a first object, and it is assumed that when the first input track is the moving track 211 of the index finger 21 shown in fig. 2, the cursor for timing operation moves to the right by a corresponding distance along with the moving track 211 of the index finger 21, and then the position where the cursor stays is the first object selected on the display interface;

or when the first control instruction is a second rotation instruction; the responding to the control instruction to control the display interface on the display screen comprises: responding to the second rotation instruction, and controlling the selection frame to move according to the second input track and the moving direction so as to select the first object on the display interface; for example, when an operation frame is displayed in the display interface, the operation frame may be a cursor for timing operation, and when a second rotation instruction is obtained, the smart watch moves the cursor for timing operation according to the moving direction of the second input track, and according to the moving distance of the second input track, moves the cursor to a certain scale, and takes the scale as a first object, and it is assumed that when the second input track is the moving track 211 of the index finger 21 as shown in fig. 2, the cursor for timing operation moves to the right by a corresponding distance along with the moving track 211 of the index finger 21, and then the position where the cursor stays is the first object selected on the display interface.

When the control instruction is a third rotation instruction, the controlling a display interface on the display screen in response to the control instruction comprises: the second sensor detects a third operation, and a second object on the display interface is selected according to the third operation; and responding to the third rotation instruction, and changing the position of the second object according to the first input track and the movement direction. The second sensor may be installed above a display screen of the electronic device, for example, when a user performs a timing operation and needs to select a certain scale with a cursor, the cursor may be adjusted to the scale, then the second sensor is touched with a middle finger, the second sensor uses the touch operation as a third operation, and the time scale selected by the user is determined according to the third operation; and then responding to a third rotation instruction, and changing the cursor and the selected time scale of the cursor together according to the first input track and the moving direction, or changing the cursor and the selected time scale of the cursor together according to the second input track and the moving direction.

Therefore, by adopting the scheme, the user can select, time and control the electronic equipment without operating the operation interface of the electronic equipment, so that misoperation caused by undersize of the screen of the electronic equipment can be avoided, the operation efficiency of the user is improved, and the use experience of the user is ensured.

Example four,

Further, after determining whether the first moving direction and the second moving direction are consistent with each other with respect to the sensing area, the method further includes: when the first moving direction and the second moving direction relative to the sensing area are not consistent, determining that the control command is a second control command. The first moving direction and the second moving direction are different, that is, the two fingers move to the center of the watch together, and at this time, the first moving direction and the second moving direction are different from each other with respect to the sensing area.

The second control instruction can be a closing instruction, and the current application interface is closed; alternatively, the user may return to the home interface from the current application interface for instructions to return to the home interface. The closing instruction is the interface for closing the current application display, and after the interface is closed, the previous level interface can be displayed.

For example, when the user completes the above-mentioned timing operation, the user may turn off the operation by moving the two hands toward the center of the dial, as shown in fig. 4, and then return to the previous operation interface, or directly return to the main interface.

Example V,

An embodiment of the present invention further provides an electronic device, as shown in fig. 5, where the electronic device includes: the first display component and the first sensor; wherein,

When the frame structure is polygonal, such as rectangular, the sensing regions are located on each side of the frame structure, such as four sides of the rectangle; when the frame structure is circular, the sensing area is located on the side surface of the frame structure.

Preferably, the obtaining of the first movement input of the first manipulation body located at the side of the frame structure body and the second movement input of the second manipulation body located at the side of the frame structure body by the first sensor may be: when a user needs to operate the intelligent watch, two fingers are used for respectively starting to move at any position of the side face of the frame structure body; the determining whether the finger performs the moving operation may be that the finger performs the moving operation when a moving distance of the finger exceeds a preset distance threshold.

The information processor is specifically configured to determine whether the moving direction of the first operating body and the moving direction of the second operating body are both clockwise or both counterclockwise with respect to the sensing area, for example, as shown in fig. 2, where the moving direction is the same as the moving direction with respect to the sensing area, where the moving direction is determined by the user using two fingers to respectively move clockwise on the side of the dial.

Example six,

An embodiment of the present invention further provides an electronic device, as shown in fig. 6, where the electronic device includes: the first display component and the first sensor; wherein,

the first sensor is disposed in a frame structure, and as shown in fig. 7, the frame structure 71 includes a fixing structure capable of fixing the electronic device to an object, such as a watch band; the sensing area of the first sensor is located on a side 72 of the frame structure;

the first display assembly 73 is fixed on the frame structure, and includes a display screen; the display screen is exposed through a first surface of the frame structure body, and the first surface is intersected with the side face of the frame structure body;

The information processor is specifically configured to determine a first input trajectory corresponding to a first movement input according to a start coordinate, a trajectory coordinate, and an end coordinate corresponding to the first movement input, and determine a second input trajectory corresponding to a second movement input according to a start coordinate, a trajectory coordinate, and an end coordinate corresponding to the second movement input; for example, as shown in fig. 2, when the user uses two fingers to move clockwise, the trajectory coordinates of the two fingers moved by the user are respectively obtained, and the input trajectories of the two fingers are determined according to the trajectory coordinates corresponding to the two fingers.

The information processor is specifically configured to determine a moving direction of the first moving input in the sensing area by using the start coordinate and the end coordinate of the first input trajectory; determining the moving direction of the second moving input in the sensing area by using the starting coordinate and the ending coordinate of the second input track; for example, as shown in fig. 2, the moving track 211 of the index finger 21 of the user is detected, and the first moving direction of the index finger 21 is determined to be from left to right, i.e. clockwise, according to the start coordinate and the end coordinate of the moving track 211; the moving track 221 of the thumb 22 of the user is detected, and the second moving direction of the thumb 22 is determined to be from right to left, i.e., clockwise, according to the start coordinate and the end coordinate of the moving track 221.

the information processor is specifically configured to, when the first control instruction is a first rotation instruction; responding to the first rotating instruction, and rotating the display interface according to the first input track and the moving direction; for example, when a map is displayed in the display interface, a first rotation instruction is obtained, and at this time, the smart watch moves the map according to the moving direction of the first input track, and it is assumed that when the first input track is the moving track 211 of the index finger 21 as shown in fig. 2, the map moves rightward along with the moving track 211 of the index finger 21;

or, the information processor is specifically configured to, when the first control instruction is a first rotation instruction; responding to the first rotating instruction, and rotating the display interface according to the second input track and the moving direction; for example, when a map is displayed in the display interface, a first rotation instruction is obtained, and at this time, the smart watch moves the map according to the moving direction of the first input track, and it is assumed that when the first input track is the moving track 221 of the thumb 22 as shown in fig. 2, the map moves leftward along with the moving track 221 of the thumb 22.

The information processor is specifically configured to, when the first control instruction is a second rotation instruction; responding to the second rotation instruction, and controlling the selection frame to move according to the first input track and the moving direction so as to select a first object on the display interface; for example, when an operation frame is displayed in the display interface, the operation frame may be a cursor for timing operation, and when a second rotation instruction is obtained, the smart watch moves the cursor for timing operation to a certain scale according to the moving direction of the first input track, and the moving distance of the first input track, and takes the certain scale as a first object, and it is assumed that when the first input track is the moving track 211 of the index finger 21 shown in fig. 2, the cursor for timing operation moves to the right by a corresponding distance along with the moving track 211 of the index finger 21, and then the position where the cursor stays is the first object selected on the display interface;

or, the information processor is specifically configured to, when the first control instruction is a second rotation instruction; responding to the second rotation instruction, and controlling the selection frame to move according to the second input track and the moving direction so as to select the first object on the display interface; for example, when an operation frame is displayed in the display interface, the operation frame may be a cursor for timing operation, and when a second rotation instruction is obtained, the smart watch moves the cursor for timing operation according to the moving direction of the second input track, and according to the moving distance of the second input track, moves the cursor to a certain scale, and takes the scale as a first object, and it is assumed that when the second input track is the moving track 211 of the index finger 21 as shown in fig. 2, the cursor for timing operation moves to the right by a corresponding distance along with the moving track 211 of the index finger 21, and then the position where the cursor stays is the first object selected on the display interface.

The electronic device further includes: a second sensor for detecting a third operation; correspondingly, the information processor is further configured to select a second object on the display interface according to the third operation when the control instruction is a third rotation instruction; and responding to the third rotation instruction, and changing the position of the second object according to the first input track and the movement direction.

The second sensor may be installed above the display screen, for example, when a user performs timing operation and needs to select a certain scale with a cursor, the cursor may be adjusted to the scale, then the second sensor is touched with a middle finger, the second sensor uses the touch operation as a third operation, and the user selects the time scale according to the third operation; and then responding to a third rotation instruction, and changing the cursor and the selected time scale of the cursor together according to the first input track and the moving direction, or changing the cursor and the selected time scale of the cursor together according to the second input track and the moving direction.

Further, the information processor is specifically configured to determine that the control command is a second control command when the first moving direction and the second moving direction relative to the sensing area are not consistent after determining whether the first moving direction and the second moving direction relative to the sensing area are consistent. The first moving direction and the second moving direction are different, that is, the two fingers move to the center of the watch together, and at this time, the first moving direction and the second moving direction are different from each other with respect to the sensing area.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, all the functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may be separately used as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a hardware form, and can also be realized in a form of hardware and a software functional unit

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. An information processing method is applied to electronic equipment, the electronic equipment comprises a frame structure body, a first display assembly and a first sensor, the frame structure body comprises a fixing structure, and the fixing structure can fix the electronic equipment on an object; the first display assembly is fixed on the frame structure body and comprises a display screen; the display screen is exposed through a first surface of the frame structure, the first sensor is arranged in the frame structure, a sensing area of the first sensor is located on a side surface of the frame structure, and the first surface and the side surface intersect with each other, and the method comprises the following steps:

responding to the control instruction to control a display interface on the display screen;

the electronic equipment is a smart watch; whether the moving direction of the first operating body and the moving direction of the second operating body are consistent relative to the sensing area or not comprises the following steps: whether the moving direction of the first operating body and the moving direction of the second operating body are both clockwise or both counterclockwise relative to the sensing area or not is determined.

2. The method of claim 1, wherein determining whether the first movement input and the second movement input satisfy a predetermined condition comprises:

obtaining a first input trajectory of the first movement input and obtaining a second input trajectory of the second movement input;

determining a first moving direction of the first moving input in the sensing area according to the first input track, and determining a second moving direction of the second moving input in the sensing area according to the second input track;

determining whether the first moving direction and the second moving direction are consistent with respect to the sensing region,

when the first movement direction and the second movement direction relative to the sensing region coincide, determining that the first movement input and the second movement input satisfy a predetermined condition, and determining that the control command is a first control command.

3. The method of claim 2,

the first control instruction is a first rotation instruction;

the responding to the control instruction to control the display interface on the display screen comprises: and responding to the first rotation instruction, and rotating the display interface according to the first input track and the moving direction.

4. The method of claim 2,

the first control instruction is a second rotation instruction;

the responding to the control instruction to control the display interface on the display screen comprises: and responding to the second rotation instruction, and controlling the selection frame to move according to the first input track and the moving direction so as to select the first object on the display interface.

5. The method of claim 2,

the control instruction is a third rotation instruction;

the responding to the control instruction to control the display interface on the display screen comprises: the second sensor detects a third operation, and a second object on the display interface is selected according to the third operation;

and responding to the third rotation instruction, and changing the position of the second object according to the first input track and the movement direction.

6. The method of claim 2, wherein after determining whether the first moving direction and the second moving direction are consistent with respect to the sensing region, the method further comprises:

when the first moving direction and the second moving direction relative to the sensing area are not consistent, determining that the control command is a second control command.

7. The method of claim 6, wherein the second control command is a close command to close a currently applied interface.

8. The method of claim 6, wherein the second control command is a command to return to the home interface from the current application interface.

9. An electronic device, the electronic device comprising: the first display component and the first sensor; wherein,

the electronic device further includes: an information processor for obtaining, by the first sensor, a first movement input of a first operation body located at a side of the frame structure body and a second movement input of a second operation body located at a side of the frame structure body; judging whether the first movement input and the second movement input meet a preset condition, wherein the preset condition is whether the movement direction of the first operation body is consistent with the movement direction of the second operation body relative to the sensing area; generating a control instruction when the first movement input and the second movement input meet a predetermined condition; responding to the control instruction to control a display interface on the display screen; wherein whether the moving direction of the first operating body and the moving direction of the second operating body are consistent with respect to the sensing area or not comprises: whether the moving direction of the first operating body and the moving direction of the second operating body are both clockwise or both counterclockwise relative to the sensing area or not is judged;

the first sensor is used for obtaining a first movement input of a first operation body positioned on the side surface of the frame structure body and a second movement input of a second operation body positioned on the side surface of the frame structure body;

wherein, the electronic equipment is a smart watch.

10. The electronic device of claim 9,

the information processor is specifically configured to obtain a first input trajectory of the first movement input and obtain a second input trajectory of the second movement input; determining a first moving direction of the first moving input in the sensing area according to the first input track, and determining a second moving direction of the second moving input in the sensing area according to the second input track; judging whether the first moving direction and the second moving direction are consistent or not relative to the sensing area, when the first moving direction and the second moving direction relative to the sensing area are consistent, determining that the first moving input and the second moving input meet a preset condition, and determining that the control command is a first control command.

11. The electronic device of claim 10,

the information processor is specifically configured to, when the first control instruction is a first rotation instruction, respond to the first rotation instruction, and rotate the display interface according to the first input trajectory and the movement direction.

12. The electronic device of claim 10,

the information processor is specifically configured to, when the first control instruction is a second rotation instruction, respond to the second rotation instruction, control the selection frame to move according to the first input trajectory and the moving direction, so as to select a first object on the display interface.

13. The electronic device of claim 10, further comprising: a second sensor for detecting a third operation;

correspondingly, the information processor is further configured to select a second object on the display interface according to the third operation when the control instruction is a third rotation instruction; and responding to the third rotation instruction, and changing the position of the second object according to the first input track and the movement direction.

14. The electronic device of claim 10,

the information processor is further configured to determine that the control command is a second control command when the first moving direction and the second moving direction relative to the sensing area are not consistent after determining whether the first moving direction and the second moving direction relative to the sensing area are consistent.

15. The electronic device of claim 14, wherein the second control command is a close command to close a currently applied interface.

16. The electronic device of claim 14, wherein the second control command is a command to return to the home interface from the current application interface.